Woodworking machine



1942- w. B. BOICE 2,294,272

WOODWORKING MACHINE Filed March 17, 1939 5 Sheets-Sheet l ZIIVUQ/IM W/LL/AM B. BU/CE- m w 4 2 i. 2 2

1942- w. B. BOICE I 2,294,272

WQODWORKING MACHINE File March 17, 1939 5 Sheets-Sheet 2 I avvutwvbo'b W/LL/AM B. 50/05 1942- w. B. BOICE WOODWORKING MACHINE Filed March 17, 1939 5 Sheets-Sheet 5 w WE w M w 3 B MW M M M 3 2 v 6 H m 4w Em 0. a k llw WU/l Aug. 25, 1942. w. B. BOICE WOODWORKING MACHINE 5 sheets-Sheet 4 Filed. March 17, 1959 Y O a w a g 9 I P. A, n. 4 8 4 n 0 a 4 m a 3 3 m 9 A 8 7 MAJ. v W 01 5 w 0 6 2a .M fl A 6 w z l 7 0 W /LLMM B. 50/65;

30% W I Swan.

g- 1942. w. B. BOICE WQODWORKING MACHINE Filed March 17, 1939 5 Sheets-Sheet 5 r O t. n e D n 3 Patented Aug. 25, 1942 UNITED STATES-PATENT OFFICE WOODWORKING MACHINE William B. Boice, Toledo, Ohio Application March 17, 1939, Serial No. 262,432

Claims.

This invention concerns wood-working machinery and more specifically relates to a sawin machine capable of making a plurality of bevel or Straight cuts as either a cut off saw or as a rip saw.

The object of this'invention is to provide a sawing machine of the pull type that is capable of making a plurality of angular transverse cuts and that can also be adapted to make a plurality of either square or bevel cuts as a rip saw.

A still further object of the invention is to provide low friction guideways for the horizontally movable tool or cutter carriage. These guideways are adapted to permit the carriage to move freely and easily in its longest direction and still keep the carriage moving in a straight line.

A still further object of this invention is to provide means on the cutter or tool carriage that will permit the cutter to be vertically adjusted to obtain a Variety of depths of cut and disposing same with a further means providing for adjusting the cutter to make any one of a plurality of bevel cuts.

A still further object of the invention is to provide a carriage device for the cutter in which v ized and are carried on said carriage such that they will always be readily available to the operator irrespective of the position of the carriage in the wood-working machine.

A still further object of the invention is to provide means in the tool carriage to firmly lock the several movable and adjustable parts of the wood-working machine in position and in a selected position of adjustment.

A still further object of the invention is to reduce the cost of manufacture of a bevel cutting pull saw and which will simultaneously increase the efiiciency of the machine and the accuracy of the cutting operation.

Further objects and advantages will appear as the description proceeds, which taken in connection with th accompanying drawings sets forth the preferred embodiment of the invention but such description and drawings are not to be construed as limitations of the invention which is to be limited only by the appended claims. Any and all variations, alterations and modifications of structure coming within the spirit and scope of the teachings and disclosure are to be included within the invention.

The appended drawings set forth a preferred practical embodiment of the invention in which:

Figure 1 shows a front elevational view of the wood-working machine.

Figure 2 is a top plan view of the wood-Working machine.

Figure 3 is a side elevational view looking toward the left in Figure 1.

Figure 4 is an enlarged plan view of the walls of the table top of the machine showing the construction of the adjustable saw slot.

Figure 5 is an end view of the Walls of the saw slot of the table top along the line 5-5 of Fig. 4.

Figure 6 is an enlarged plan view of the adjustable element of the saw slot.

Figure 7 is a side view of the adjustable slot element of Figure 6.

Figure 8 is an elevational view of the roller supports on which the horizontal movable carriage is adapted to slide.

Figure 9 is an end view of the construction of Figure 8 showing a portion of the tool carriage operatively associated with the roller supports.

Figure 10 is a longitudinal section view of the tool carriage taken substantially along the line Ill-40 of Figure l with the cutter slide schematically represented.

Figure 11 is a cross sectional view of the tool carriage looking in the direction of the arrows on line llll,. of Figure 10 showing the arrangement of the cutter carriage and its component parts and the gear mechanism for swinging the cutter carriage.

Figure 12 is an end view of the cutter carriage support showing th dials and arrangement of the means for swingingly supporting the tool carriage.

Figure 13 is a section view substantially along the. line I3I3 of Figure 11 and showing the means for locking the cutter carriage to the swinging support.

Figure 14 shows a general plan View of .the means for locking the tool carriage against horizontal movements.

Figure 15 is a section view along the line 15-! 5 of Figure 14 showing the locking bolt.

Figure 16 is a section view along the line |6l 6 of Figure 14 showing the socket with which the locking bolt cooperates.

Figure 17 showsa fragmentary side view of the swinging carriage having the cutter guard and splitter arranged thereon.

Figure 18 shows a section view along the line 18-48 of Figure 17 showing the operative relationship of the cutter, its guard and the splitter,

Figure 19 shows a section View of the guard,

and splitter taken substantially along the line I9-I9 of Figure 1'7.

Figure 20 shows a modification of the cutter slide gib lock.

Figure 21 shows a modification of the tool car-'- riage roller support.

Figure 22 is a vertical section view of the gear housing for vertically adjusting the cutter slide.

Figure 23 is a vertical fragmentary section view of one end of the tool carriage and its supporting wall showing the pointer attached.

Figure 24 shows a fragmentary view of the carriage showing the pointer in operative relation with the vertical adjustment gauge.

Fig. 25 shows a perspective view of the table top.

The wood-working machine of the instant invention comprises initially a base structure I which is of a substantially rectangular shape but having a curved surface as at 2. On the upper part of the base structure there is arranged a table top or work supporting surface 3 preferably integrally associated with the base structure I. At one edge. preferably the forward edge, a fence support 4 is mounted which supports fence locking and adjusting mechanism 5 with which the fence 6 is intimately associated. The details of the fence support and its associated mechanism is set forth in pending application S. N. 251,697, filed Jan. 19, 1939.

The table top or work supporting surface 3 is provided with a plurality of grooves 1 into one of which a work guide 8 is adjustably secured to assist in making angular cross cuts in a, work piece. The cutter 9 rotatably supported in a movable carriage I9, hereinafter described in greater detail, is intended to be moved bodily through the work to perform a cross cutting operation on the work piece when it is at rest against the guide 8. Provision must therefore be made for a slot II) in the table top 3 to enable a saw or cutter 9 to be pulled through the work. Since it is also intended to operate the machine with a dado cutter provision has been made to vary the width of the slot I to enable various combinations and widths of cutters to be employed. The essential object of the adjustable width slot is to permit a work piece to be supported right up against the cutter and to prevent any possible tipping of the work piece so as to cause it to become jammed between the cutter and the edge of the slot.

The foregoing results are accomplished in the provision of a pair of adjustable slot wall members II, II that are mounted in the table top 3. The detail of one of these members is shown more clearly in Figures 6 and '7. It will be apparent that each of the members comprise initially a long relatively narrow bar member I2. This bar member I2 has integrally associated therewith a plurality of tooth or leg members I4 which cooperate with a corresponding slot I in the table top or in a separate piece I5a insertable in the table top as indicated by the dotted lines in Figure 2. Each of the leg or tooth members I4 is shouldered as at I6, I6. This results in providing a slot of somewhat narrower width than the corresponding leg or tooth. The slots I5 cut into the table top or in the separate piece I5a are likewise shouldered as at l1, l1. When therefore the member I I is fitted into the table top the teeth or legs I4 of movable members II will fit into the slots I5 of the table top. The shoulders I6 and I1 cooperate to maintain the top of the table and the top of the tooth bar member I I and I2, I2 flush. Attention is at this point invited to the fact that the bar member II of the toothed portion I4 can be borught into close proximity with the saw or cutter. It should be further evident that a work piece laid on the table in working or cooperative relation with the saw will be supported throughout the full length of the table because the teeth of the movable element will provide the intermediate support as the toothed member is adjusted relatively of the cutter or saw. The bar element I I will provide a firm support immediately along side of the cutter. A pair of locking screws I8, I8 may be provided in each of the toothed elements to lock the bar elements II and II in any desired adjusted position.

It was stated above that one of the objects of the instant invention is directed to a pull saw for cross-cutting operations and also for rip-cutting operations and that it is intended to produce a bevel or straight side out in either ripping or cross-cutting operations. To the achievement of that end the machine is provided with a movable carriage slidably mounted on suitable ways on the underside of table 3, or in the bed I of the machine. The carriage I9 consists initially of a rectangular shaped element that is somewhat longer than either its width or its depth. The carriage is provided with a pair of shoulders 20 that are integrally associated with the walls of the carriage. The adjacent side walls of the table or bed of the machine are equipped with a plurality of roller mechanisms 2t, 2I etc. These rollers are journaled on pins 22, 22 removably supported in the side wall of the channel in bed I or table 3 in which carriage I9 slides. The rollers are preferably rotatably supported on the pins 22 by-means of anti-friction bearings (not shown) in order to reduce friction to a minimum and thereby reduce to a minimum the force required in pulling or moving the carriage relatively of llrthe bed I of the machine.

The shoulders 20 rest upon the rollers 2| maintaining both tool carsu nriage and machine in properspaced relationship.

It was pointed out above that the invention was ting operations.

The foregoing is accomplished initially by the horizontally movable carriage I9 previously referred to. This carriage is equipped initially with a handle device 23 appropriately secured to the front wall of carriage I9. The handle 23 may be made integral with the carriage, if so desired, as shown. Other means may be provided for pulling the saw through the work such as a conventional screw and gearing or a hydraulic system each of which is Well known to the art.

The saw 9 is adapted to be tilted about an axis extending longitudinally of the horizontally movable carriage IS. The saw or cutter 9 is also adapted to produce cuts of varying depth; the means for accomplishing each of these adjustments will be hereinafter set forth. The means which are provided in the carriage, therefore, to produce the aforementioned results in brief constitute a slide device for adjusting the cutter slide relatively vertically of the carriage and a secondary or swinging carriage for tiltably or pivotally mounting the cutter 9 in the horizontally movable carriage I 9. The carriage I9, by reference to Figures 10 and 11 comprises a forward wall 24 and a rear wall 25. These two walls are joined by side walls 26 and 27. The bottom of the carriage is left open to permit dust and cuttings to fall through into the base of the machine and thence be disposed of in any convenient manner.

Within this carriage or support is a secondary support or carriage 28 which is swingably or pivotally supported in the carriage l9. The swinging or pivoting of the carriage is accomplished by a tongue and groove construction similar to that described in U. S. Patent No. 1,922,151 and in the specific instance constitutes a tongue 29 in the form of a segment of a circle. This tongue cooperates with groove 30 in wall or end piece 3| of carriage 28 and with a second groove 32 formed or cut into wall 24 of carriage l9. The general shape of the grooves are shown in Figure 12. The opposite end of the carriage or swinging support is also equipped with a similarly shaped tongue and groove construction, which comprises the tongue or circular key 35 fitting into a groove 34 cut into the end wall 25 of the carriage l9 and a groove 38 cut into end wall 28a of carriage 28. In assembling the swinging carriage 28 within the horizontally slidable carriage l9, carriage 28 is slipped into the carriage l9 and when the grooves cut into the end walls of the respective carriages l9 and 28 are in alignment the circular keys or tongues are slipped or forced into the grooves. The center of rotation 37 of the tongues and the circular grooves previously described lies in the upper surface of the table and in the plane of the saw or cutter 9. By this arrangement the angle of adjustment of the saw for producing a bevel rip out can be accurately determined and read directly.

As soon as the circular keys are fitted in the grooves the two carriages may be locked together with a pair of locking devices mounted on the forward or front wall 24 of the carriage l9. These devices comprise locking screws 38 and 3! that are threaded into end piece 3| (Figure 12). Figure 19 discloses only the locking screw 39, actuable by convenient head 33a, threaded into the end piece 3!. Locking device 38 is also threaded into wall 3| as shown in Figure 12 and is actuable by a lever 38a. It is obvious therefore that when each of the locking screws is tightened wall 3| will be clamped onto or against wall 24 of the carriage it thereby preventing any possible disturbance of a selected adjustment.

Means have been provided for swingably or pivotally adjusting the carriage 28 in the longitudinally movable carriage I9. These means consist initially of a bracket 49 that is integrated with a part of the end wall 3 i. This bracket contains a swinging nut mechanism il that is suspended in the bracket by means of two pivots Ala and Gib integral with the nut 4|. A screw 43 is rotatably mounted in the nut at one end thereof and its opposite end is taken off or connected to the outlet of a gear box M appropriately secured to the side wall 26 of carriage I9. It is necessary that some means be provided between gear box i and screw 43 that will permit a flexing of the screw 63 and to that end a coupling 65 or other appropriate flexible connecting means is disposed between the screw 63 and the gear box 45.

Screw 43 is actuated from hand wheel d6 carried in the forward wall of horizontally movable carriage l9 and is rotatably supported therein. A shaft 41 connects the hand wheel to the gear box 44 such that rotative movements of the hand wheel are transmitted to the screw 43 whereby the carriage 23 is swingably or pivotally adjusted relatively to the carriage l9 and the table top 3. The details of the gear box are in dotted lines and comprise a worm mounted on shaft 4'1. Worm 41a engages a worm wheel 44a mounted on shaft 4% rotatably mounted in the housing 44 and connecting with coupling 45. The worm and wheel organization enables the carriage to be maintained in its adjusted position a sufficient period of time to enable the operator to turn looking screws 38 and 39 to permanently lock the pivotally or swingably mounted carriage 28 to the horizontally movable carriage |9.

Means are provided for accurately determining the degree of rotation or swinging movement of the carriage 23. To this end wall 3| is constructed essentially of divided portions 48 and 49 connected on all sides by a web portion 50, 59a, etc. This provides an opening or space 5| in which is disposed a light source 52 whereby appropriate dials or indicia is illuminated for easy reading, which dial and indicia is set in the forward wall portion 49 of the end wall construction 3|. The wall 3| may, of course, be provided with means such that light source 52 may be replaced when necessary. The wall section 49 is slotted arcuately as at 53 to retain a translucent insert 53a therein which has significantly printed on it the desired markings whereby any degree of rotation of carriage 28 may be determined. When therefore the light source 52 is illuminated by closing switch 54 the numerals or markings on the translucent insert will be very easily read. To further assist the operator in making his angular adjustments of the carriage 28 a pointer 55 integral with th forward wall 24 of carriage i9 is provided. This pointer is stationary and the end wall section 3| with its translucent insert moves or swings relative thereto, whereby the position of angularity or tilt of cutter 9 relative to table top 3 is determined.

In this connection attention is invited to the fact that slots are provided in the forward wall 24 of carri ge l9 to accommodate locking screws 38 and 39 carried by wall section 3|. These slots 56 and 57 radiate from, or are drawn from the same center as the circular keys 35 and 29 as well as the slot 53 carrying the translucent insert.

It was also pointed out above that the saw or cutter 9 and the slide upon which it is mounted in the carriage 28 is capable of a vertical adjustment to vary the depth of cut the cutter may take or the amount the saw or cutter 9 extends above the table top 3. Slide 58 is mounted on portion 48 of the wall 3!, see Fig. 13. The wall 48 has a dove-tailed portion 59 cut therein which is adapted to receive a corresponding and cooperating dove-tailed portion 68 formed in or cut into the cutter slide 58. Slide 58 is thereby enabled to slide at right angles to the axis of rotation of the swingably or pivotally mounted carriage 28.

Means have been provided for accomplishing the aforementioned vertical adjustment. Slide 58 has gear teeth 6| (Figure 11) formed along one of its edges with which a gear 6 la, Figure 22, rotatably mounted in the housing 62, engages for raising and lowering the cutter slide 58. The gear Bi'a is engaged by an idler gear Blb, which is in mesh with a gear Bic secured to shaft 63. Gears Bid and Gib are mounted on shafts Nd and die respectively rotatably mounted in the housing 62. The gears are, of course, only schematically shown to establish the operative relation of the parts. The shaft 63 is rotatably mounted in the wall 3| and in the housing 62 and has a hand wheel 64 applied thereto for rotating the shaft 63. Attention is invited to the fact that the hand wheel swings along with carriage 23 to thereby enable the vertical adjustment of the cutter slide to be eifectuated in any angular position of the carriage 28.

Locking means is provided for preventing any slippage of the tool slide 58 relative to the wall portion 580f the swingable cutter slide 28. This comprises preferably an adjustable gib 65 that is urged against portion 81 of the dove-tailed groove in the portion 98 of the wall 3I. Housing 88 has therein a suitable gearing similar to 44a and 41a that axially moves screw 69 to urge the adjustable gib 8'5 into engagement with the portion 81 previously described. The screw 89 passes through a slot 68a out into the dove-tailed part of 58 to permit relative movement of slide and screw. Shaft portion 99 is rotatably mounted in the Wall section 3| and has a handle portion 19 secured thereto whereby the shaft 69 may be rotated to ultimately rotate the aforementioned gearing to move axially the screw 85 which locks adjustable gib E5 to the gib 91 and thereby looking cutter slide 58 to the portion d8 of wall section 3!. In this connection attention is again invited to the fact that shaft 69 and the attached handle 19 swing with the carriage 28.

Means have been provided whereby the amount of vertical adjustment or depth of out may be accurately determined. This comprises initially a translucentinsertable element 1I having proper indicia arranged thereon assembled in an appropriate slot cut into portion 49 of the wall 9i. A pointer 12 (Figures 1, 23, and 24) attached to slide 58 by screw 12a extends around side of wall 3! and moves relatively of wall 29 in a slot 24a such that the pointer may move relatively of wall 24 and Wall SI and which will assist in indicating the amount of the vertical adjustment of the cutter or the depth of cut. The indicia on the insert 1! are illmninated from the light source 52 in the same manner as they are on insert 53.

Cutter slide 58 is provided with a bracket 13, schematically shown in Figures and 11, which is preferably integrally associated with cutter slide 58. The bracket 13 adjustably supports a motor 19 or other source of power. The motor 14 is ,slidably mounted on slides 15 which are preferably of the dove-tailed character. Motor base 14a has necessarily corresponding dovetailed slides to prevent any possible lateral or transverse motion of the motor and its support relative to bracket 13. Bracket 13 has a lug 11 integral therewith which rotatably receives a shaft or screw 19. Screw 15 is appropriately threaded into the base 14a of the motor and is headed as at 19a. when the screw 16 is rotated, by applying an appropriate wrench or crank to 18a, that it will move motor 14 and its base relatively of the bracket 13. The purpose of this motion is to tighten the belt drive for the saw or cutter hereinafter described. A switch 18 mounted on the housing I and convenient to the other controls of the machine is adapted to govern the starting and stopping of motor 18.

Cutter 0r saw 9 is rotatably mounted in a bearing bracket 19 that is disposed on the cutter slide 58 as indicated. Saw or cutter 9 is secured to a shaft 89 which shaft is rotatably mounted in suitable bearings (not shown) mounted in the bearing bracket E9. The shaft 80 also carries a pulley 8i that is adapted to receive belt or other power transmitting means 82 threaded around a pulley 83 carried on the armature shaft 34 of the motor 14. A compact drive for the cutter It is evident therefore that from the prime mover orgaization is thereby drawings is of a stub variety to enhance the compactness of the cutter support and its drive.

A guard mechanism is provided for the saw to-prevent injury to the cutter and to the operator. This guard is preferably of a shape such as generally shown in Figures 17, 18 and 19. Associated with the guard 85 is a splitter 86 whose function is to prevent a possible pinching of the saw or cutter 9. The saw guard 85 is provided with a base structure 81 that rests upon or is secured to the rear portion ofthe swinging carriage 28. The base portion 81 is appropriately socketed to receive the horizontal portion of the splitter 86 as shown in Figures 18 and 19. The entire assembly is secured to the rear end of the carriage 28 by screws 88 and 88. The base portion 81, the horizontal portion of splitter 86 and the horizontal portion of guard 85 are appropriately apertured as at 89, 89 to receive the screws 88, 88 which are threaded into the carriage 28.

In view of the fact that the machine is intended to perform a ripping operation as well as a cross cutting operation means have been provided to lock the slidable carriage I9 in the bed or base portion I of the machine. The locking means are specifically shown in Figures 14, 15 and 16. A wall portion 98' of the bed I is provided with a boss 92 apertured as at 93. Adjacent wall portion 94 of the carriage I9 is likewise bossed as at 95. Boss 95 is provided with an aperture 98 which aperture is in alignment with the aperture 93 of boss 92. Aperture 95 has a bolt 91 therein having teeth 99 cut into it which cooperate with teeth on a transverse shaft 98 which extends outwardly and is rotatably mounted in the Wall portion 24 of carriage I9. The shaft 98 has a handle or crank I89 secured thereto with which to rotate the shaft 98 to bring locking bolt 91 into or out of engagement with the aperture 93 thereby locking or unlocking the carriage I9 relative to the bed I of the machine.

Attention is at this point invited to the fact that the machine provides a clustered control for the several adjustments this clustered control constituting the operators station. It is to be observed that hand wheel 48 which controls the tilting of the carriage, hand wheel 64 which controls the depth of cut and the locking means controlled by levers 38, 10, and I00 and screw 39 are readily accessible to the operator from his operating position and is not necessary for him to step or reach to a remote part of the bed of the machine to control any one of the several adjustments. This applies equally to the fence control 5, the cross cut bevel guide 8, light switch 54 and motor switch 18. All of these as will be noted are conveniently disposed Within easy reach of the operator and enables him to have instant control of any one of the several controllable devices.

Means have been provided to relieve some of the weight on the adjusting mechanism for the swingable carriage and for the vertically adjustable cutter slide. These means take the form of spring counterbalancer which relieve the screw or gear adjusting mechanism for the several adjustable carriages.

Carriage I9 and swingable carriage 28 have two brackets I I6 and I I1 respectively secured to them. These brackets have a spring II8 interposed between them, the ends of which are looped through apertures in the brackets or are otherwise at tached to the brackets.

Carriage 28 and cutter slide 58 have brackets H9 and I2I respectively attached to them with a spring I20 interposed between them, the ends of which spring are looped through apertures in the brackets or are otherwise secured to the brackets.

From the foregoing it is apparent that each of the adjustable carriages is appropriately counterbalanced to relieve the screw and gearing in the adjusting mechanism of the load or weight of the slide and carriage.

A modification of the cutter slide locking means is shown in Figure 20. IN is a cutter slide dovetailed into a portion I02. An adjustable gib I03 is disposed in the dove-tailed construction as shown. The gib is brought into locking engagement with the dove-tailed portion of the slide IOI by means of a presser member I04. Presser member I04 is urged to the right as shown in Figure 20 by a ball member I06. Ball member I06 is urged to the right by Wedge member I05 that is axially movable in an aperture III provided in the portion I02. Wedge bolt I05 is axially movable in portion I02, in aperture III and is threaded at one end as shown. threaded end of bolt I05 is engaged in the threaded socketed end of element I I2 which corresponds to shaft 69 having a crank similar to I attached thereto. Therefore when the shaft H2 is rotated by a convenient crank, wedge bolt I will be axially moved to release gib I03 by means of ball I05 and presser member IM or will lock gib I03 against the dove-tailed portion of slide IOI depending upon the direction of axial movement of wedge bolt I05.

Modification of the means for slidab-ly mounting the carriage I9 relatively of the bed I of the machine is disclosed in Figure 21. ISa. schematically represents the carirage. The bed of the machine I is shaped as at H2 and is equipped with a shoulder or ledge II3 that holds or on which roller I14, mounted on portion I I5 of carriage ISa, is adapted to roll. The rollered carriage I9a moves relatively of the bed of the machine on the ledge II3. Roller H4 is similar in construction to roller 2| previously described and a plurality of rollers are preferably mounted on each side of the carriage.

That which is considered new, novel and useful and which it is intended to protect by Letters Patent of the United States is as follows:

1. In a machine performing a cutting operation, the combination, a channelled base structure, a work supporting means in said base, a

carriage movable in said channel relatively of said base, a cutter movable with said carriage, means in said carriage adapted to tiltably and vertically adjust said cutter, said carriage tilting on an axis lying in the upper plane of the work supporting means and in the plane of the cutter, control means for actuating said last mentioned means from the operators station, means to lock said means in adjusted position, means to move said carriage relatively of the base, means adapted to lock said carriage in said channelled base, and means to actuate each of said locks, said means extending to a position on the machine adjacent the operators station.

2. In a wood-working machine, the combination, a channelled machine base having a table The top, a carriage movable in said channel relative to said base, a swingable carriage mounted in said carriage, said carriage swingable on an axis lying in the upper plane of said table top, a cutter slide vertically mounted in said swinging carriage, means for moving said carriage, mechanism for swinging said swingable carriage, mechanism to vertically move said cutter slide, each of said mechanisms extending to and operable from the operators station, means to counterbalance said swingable carriage and said vertically adjusted carriage and means to retain said swingable carriage and cutter slide in their respective positions of adjustment, means to actuate each of said last mentioned means and extending to and operable from the operators station.

3. In a machine for performing a wood-working operation, the combination, a table top base having a channel equipped with roller ways, a carriage slidable in said channel on said roller ways, means to move said carriage, a swingable carriage in said movable carriage, said carriage swinging on bearings having an axis lying in the upper plane of the table, means to adjust said swingable carriage, means to counter-balance said swingable carriage, a cutter slide vertically movable on said swingable carriage said axis of swing also lying in the plane of the cutter, means to vertically adjust said slide, means to counterbalance said cutter slide and means to lock said swingable carriage and said cutter slide in adjusted position, means to actuate said lock; said means to adjust vertically and swingably and said means to lock each of said parts extending to the operators station.

4. In a stationary machine, the combination, a table top base having a channel therein, a roller supported carriage relatively movable in said channel, means to move said carriage in said channel, means to lock said carriage against movement in said channel, means to actuate said lock means, means to support a swingably adjustable and vertically adjustable cutter in said carriage, said cutter swingable on an axis lying in the plane of the table top and in the plane of the cutter, counter-balancing means for said adjustments, mechanism to swingably and vertically adjust said cutter and means to retain said cutter in adjusted position, said adjusting means and said means to retain operable by mechanism extending to and terminating adjacent the operators station.

5. In a material working device; a base having a plane side wall constituting the operators side; a carriage movable relative to said base and at right angles to said wall and having an end wall; a carrier swingably mounted in said carriage and having an end wall in proximity to said carriage wall; a cutter slide mounted on said carrier; bearing means supporting said carrier for swinging movement; means to swing said carrier; means to adjust the cutter slide; a control for said means to swing mounted in one of said end walls; a control for said slide mounted in the other of said end walls, means to connect one of said controls with one of said means to adjust and means to connect the other of said controls with the other of said means to adjust.

WM. B. BOICE. 

